联系我们
与泰克代表实时聊天。 工作时间:上午 9:00 - 下午 5:00(太平洋标准时间)。
致电我们
工作时间:上午9:00-下午5:00(太平洋标准时间)
下载
下载手册、产品技术资料、软件等:
反馈
Analog and Mixed Signal Sources
Arbitrary Function/Waveform Generators
Tektronix offers a wide variety of Arbitrary Function and Arbitrary Waveform Generators that have the capabilities to earn the title of "Mixed Signal Source". From the 16 MS/s Bench AFG 300 to the 4.0 GS/s programmable AWG 710, Tektronix has an Arbitrary signal source to solve your application requirements.
Arbitrary waveform generators are used to generate "real world" signals. They can generate signals with all the glitches, drift, noise and other anomalies that a device under test will encounter when it leaves the lab or manufacturing floor. In addition to creating standard functions like Sine, Square, Triangle, Noise, and DC, AWGs are being used for disk drive testing, serial data communication, Base band/IF modulation testing, anti-lock braking, engine control, transducer and biomedical simulations and much more.
"What if" scenarios are straightforward since waveforms can be captured from a digital scope and then modified to see when a device under test fails. They also import waveforms from simulation tools like Mathcad and Matlab for easy connectivity to your DUT.
Arbitrary Waveform Generators have evolved from simple D/A converters to sophisticated signal sources with powerful creation, editing, triggering and real-time sequencing capabilities.
AWG Overview
Standard function generators offer limited capability when compared to the robust capabilities offered in modern Arbitrary Generators. Today, in fact, we can consider the powerful AWG Series as truly Mixed Signal Sources. In addition to the AWG's ability to replace conventional generators in applications, AWGs also provide other powerful capabilities.
For example, designers must test their products to operate under the actual conditions which their design will encounter in the “real world.” However, real-world test signals are often not ideal and may have undesirable components or impurities. These conditions may also be observed as either repetitive or infrequent amplitude and/or frequency anomalies. Modern Arbitrary Waveform Generators are ideally suited to simulate all of the conditions encountered including both ideal and anomalies.
|
AWG710 |
AWG610 |
AWG510/520 |
AWG410/420/430 |
AWG2021 |
AWG2005 |
AFG310/320 |
---|---|---|---|---|---|---|---|
Maximum Clock Rate (Point Rate) |
4.0 GS/s |
2.6 GS/s |
1 GS/s |
200 MS/s |
250 MS/s |
20 MS/s |
16 MS/s |
Output Channels |
1 |
1 |
1 or 2 |
1, 2 or 3 |
1 std.; 2 total opt. |
2 std.; 4 total opt. |
1 or 2 |
Ampl V p-p into 50 Ohm |
2 Vp-p |
2 Vp-p |
2 Vp-p |
2 Vp-p |
5 Vp-p |
10 Vp-p |
10 Vp-p |
Region Shift |
300 fs |
400 fs |
2 ps |
5 ps |
4 ps |
50 ps |
Phase Shift |
Vertical Resolution (bits) |
8-Bit |
8-Bit |
10-Bit |
16-Bit |
12-Bit |
12-Bit |
12-Bit |
Execution Memory |
16 M point or 32 M point (Opt. 01) /CH |
8 M point |
4 M point |
4 M point or 16 M point (Opt. 01)/CH |
256 point/CH |
64 point/CH |
16 point/CH (4 pages total) |
Waveform Editing |
Built in: Graphical, Equation, Digital Timing, Table, Autostep Sequencing, Enhanced Math |
External: with SW |
|||||
Direct DSO Transfer |
TDS200-TDS700, TDS820, TDS3000, TDS5000, TDS7000 |
TDS200-TDS700, TDS820, TDS3000 |
|||||
Parallel Digital Output |
2-Bit |
2-Bit |
12-Bit @ 1 GHz |
16-Bit CMOS + 2 markers/CH (Opt. 03) |
12- or 24-Bit (TTL @ 100 MHz) 12-Bit (ECL @ 250 MHz) + 2 markers (Opt. 03 or 04) |
24-Bit TTL+ 2 markers (Opt. 04) |
No |
Software Support |
ARB-link |
ARB-link |
ARB-link |
ARB-link |
WaveWriter |
WaveWriter |
WaveWriter |
Temperature |
Operating: +10°C to +40°C |
||||||
Nonoperating: -20°C to +60°C |
|||||||
Humidity |
Operating: 20% to 80% (no condensation) |
||||||
Nonoperating: 5% to 90% (no condensation) |
|||||||
Altitude |
Operating: To 4.5 km (15,000 ft.)*1 *2 |
||||||
Nonoperating: To 15 km (50,000 ft.)*2 |
|||||||
Vibration |
Operating: 0.33 mm p-p, 10 Hz to 55 Hz for 15 minutes*2 |
||||||
Shock |
Nonoperating: 30 G (1/2 sine) 11 ms duration |
||||||
Safety |
UL3111-1, CSAC22.2 No 1010.1, EN61010-1 |
UL3111-1, CSA1010.1, ENG61010-1, IEC61010-1 |
UL3111-1, CSA1010.1, ENG61010-1, IEC61010-1 |
UL3111-1, CSA1010.1, ENG61010-1, IEC61010-1 |
UL1244, CSA231, EN61010-1, IEC61010-1 |
UL1244, CSA231, EN61010-1, IEC61010-1 |
UL1244, CSA231, EN61010-1, IEC61010-1 |
Voltage Range |
90 to 250 VAC |
||||||
Line Frequency |
48 Hz to 63 Hz |
||||||
Where to find more info |
4 GS/s Arbitrary Waveform Generator, AWG710 |
2.6 GS/s Arbitrary Waveform Generator, AWG610 |
1 GS/s |
200 MS/s Arbitrary Waveform Generator, AWG400 Series |
250 MS/s Arbitrary Waveform Generator, AWG2021 |
20 MS/s Arbitrary Waveform Generator, AWG2005 |
16 MS/s |
*1Maximum operating temperature decreases 1°C for each 300m above 1.5 km.
*2 Specifications for AWG400 and AWG710 are: Altitude (operating) – Up to 3 km (10,000 ft); Altitude (non-operating) Up to 12 km (40,000 ft.); Vibration (operating) – .27 GRMS from 5 Hz to 500 Hz for 10 minutes.